Mediatek Dimensity 5G Open Resource Architecture to power new 5G smartphones

Taiwan based Mediatek has announced the Dimensity 5G Open Resource Architecture that provides brands with more flexibility to customize key 5G mobile device features to address different market segments.  The open resource architecture gives smartphone brands closer-to-metal access to customize features for cameras, displays, graphics, artificial intelligence (AI) processing units (APUs), sensors and connectivity subsystems within the Dimensity 1200 chipset.   Devices powered by MediaTek’s Dimensity 5G Open Resource Architecture customized chipsets will hit the global market this month (July 2021).

Mediatek is one of only two semiconductor companies (Qualcomm is the other) that have developed and are selling 5G silicon on the merchant market (Huawei, Samsung and soon Apple will have 5G silicon for internal product use).   The company’s 5G chip sets are intended for 5G endpoint devices (like smartphones), rather than for base stations or small cells (where the equipment vendor designs their own ASICs).

“MediaTek is collaborating with the world’s largest smartphone brands to unlock customized consumer experiences that differentiate flagship 5G smartphones,” said Dr. Yenchi Lee, deputy general manager of MediaTek’s Wireless Communications Business Unit. “Whether it’s novel multimedia features, unmatched performance, brilliant imaging or more synergy between smartphones and services, with our architecture device makers can tailor their devices to complement a variety of consumer lifestyles.”

Key ways that brands can customize the Dimensity 5G Open Resource Architecture includes multimedia experiences that allow access to the in-chip, multi-core AI and display processors. 5G smartphone brands can tailor multimedia experiences and unlock more synergy between the chipset and the smartphone’s display and audio hardware.  Brands will be able to sync the latest Bluetooth features with profiles to match their wireless accessories, such as headsets or gaming peripherals.

Hybrid multiprocessing is included.  It is the open resource architecture that gives 5G brands the freedom to fine-tune a device’s performance and power-efficiency.

RootMetrics: Verizon wins 5 of 7 U.S. RootScore awards

RootMetrics (owned by IHS-Markit) conducted nearly 3 million tests in the first half of 2021 to see how the mobile carriers performed across the entire U.S., within the 50 states, and across the country’s 125 most populated metropolitan markets. The network monitoring firm also examined 5G results for each network as expansion continues.

Verizon remains the carrier to beat:

Verizon delivered another excellent performance in 1H 2021. The carrier won or shared five out of seven U.S. RootScore Awards and earned more State and Metro Area RootScore Awards than any other carrier. Verizon also continued its trend of offering strong speeds and great reliability in major cities, and as shown in our last 5G Scorecard, Verizon has also delivered outstanding Everyday 5G data reliability more often than the other carriers.

AT&T shows major improvements across the board:

After taking a slight step back for speed in 2H 2020, AT&T delivered faster speeds, better reliability, and strong Everyday 5G results in 1H 2021. AT&T took home three US RootScore Awards in 1H 2021 compared to one in 2H 2020, while significantly increasing its tally of State and Metro Area RootScore Awards. And as our 5G Scorecard series has shown, AT&T has also delivered fast Everyday 5G download speeds more consistently than the other carriers in 1H 2021.

T-Mobile improves in major metros:

T-Mobile continued to perform well in our metro area testing, delivering good and improved median download speeds, with stronger reliability since 2H 2020. The carrier also provided the top Everyday 5G availability in RootMetrics’ June 5G Scorecard, and its 5G speeds have continued to improve since 2H 2020.

State RootScore Award tally – by category:

Overall Reliability Accessibility Speed Data Call Text Total
AT&T                                                       25     26                     18             41       36    28    43     217
T-Mobile                                                 0        1                       2               4        0       1      8       16
Verizon                                                   41     43                     38             24       27    45    46    264

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Metro performance in a nutshell:

AT&T continued its trend of improvement we saw in our national and state testing to the metro level in 1H 2021. AT&T won far more awards than in 2H 2020, registered faster speeds, good reliability, and delivered fast Everyday 5G download speeds.

T-Mobile increased its tally of RootScore Awards since 2H 2020, delivered much better speed results, and showed improved reliability. T-Mobile has also continued to deliver impressive Everyday 5G availability. Verizon remained the top-performing carrier at the metro level.

Verizon delivered good speed and reliability results and earned by far the most Metro Area RootScore Awards. Verizon’s 5G has also continued to expand, with the carrier recording particularly strong Everyday 5G data reliability results.

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References:

https://rootmetrics.com/en-US/content/us-state-of-the-mobile-union-1h-2021

 

Samsung partners with GBL to deploy 5G testbed for U.S. Army

Samsung has teamed up with GBL Systems Corporation [1.] to deploy new 5G testbeds at U.S. Army military bases for Augmented Reality/Virtual Reality. The testbeds are part of a broader initative announced by the Department of Defense in October, which awarded $600 million in contracts for 5G testing at several US military test sites. GBL and Samsung have been contracted to support one of the largest testbeds, demonstrating the use of AR and VR over 5G networks for training applications.

Note 1. GBL Systems Corporation (GBL) is a leading provider of systems engineering, software services, advanced technology solutions to the U.S. Department of Defense (DoD)

Under the deal, GBL will be responsible for prototype creation, technology integration, and aligning the system with DoD requirements. Samsung will deliver its 5G end-to-end system and technical expertise, including network products such as its Massive MIMO Radios, cloud-native 5G Standalone (SA) Core, and Galaxy 5G mobile devices. The goal is to deploy a scalable, resilient and secure 5G network for AR/VR-based mission planning and training.

The testbeds will support AR for live field military training exercises. Simulated scenarios include virtual obstacles found in the combat theater, and overlays of data and instruments relied on by military personnel. Testing will start in a lab environment using Samsung’s mmWave and mid-band 5G radios. Field testing will then follow at two U.S. Army training bases that will support a live and simulated Army brigade.

Samsung Networks and GBL Systems deploy 5G testbeds for the U.S. Department of Defense, enabling evaluation of AR/VR applications in mission planning and training. U.S. Army trainees will use AR/VR goggles to see enhanced digital content overlaid onto real-world environments.

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“GBL is excited to work with Samsung to rapidly field a 5G network that is scalable, resilient, and secure to create a prototype test bed in support of a new DoD 5G-enabled AR/VR training capability,” said Jim Buscemi, CEO. “This effort has the potential to revolutionize how the DoD performs distributed training exercises that are more combat-like to significantly advance warfighter readiness.”

“Samsung is pleased to collaborate with GBL to deliver a reliable, resilient and secure 5G network for the DoD to evaluate new capabilities for our U.S. troops,” said Imran Akbar, Vice President and Head of New Business Team, Networks Business, Samsung Electronics America. “We believe in the transformative power of 5G and look forward to assisting the U.S. Department of Defense as they use this technology to increase training safety and strengthen the Nation’s defense capabilities.”

Samsung’s 5G solution enables quality, real-time imagery to be shared by many participants simultaneously. The Army trainees will use AR/VR goggles to see enhanced digital content overlaid onto the real world, and can use this digital imagery to interact with and acquire information about their real environment. This expands what’s possible in military training today, and provides a competitive advantage against adversaries.

Samsung pioneered the successful delivery of the first 5G end-to-end solutions in 2018, including chipsets, devices, radios, and the core network. Through ongoing research and development, Samsung drives the industry to advance 5G networks with its market-leading product portfolio from fully virtualized RAN and Core to private network solutions and Artificial Intelligence (AI) powered automation tools. The company is currently providing network solutions to mobile operators that deliver connectivity to hundreds of millions of users worldwide, including customers of leading U.S. operators.

 

References:

https://news.samsung.com/us/gbl-systems-samsung-begin-deployment-5g-testbeds-u-s-department-of-defense/

https://www.telecompaper.com/news/samsung-gbl-to-deploy-5g-testbed-for-us-army–1390248

NEC and Microsoft in MAJOR multi-year strategic partnership based on cloud computing

Microsoft  and NEC Corporation on Tuesday announced an expansion of their decades-long collaboration. Through a new multi-year strategic partnership, the companies will leverage Microsoft Azure, Microsoft 365, NEC’s network and IT expertise, including 5G technologies, and each other’s AI and IoT solutions to help enterprise customers and the public sector across multiple markets and industries further accelerate their cloud adoption and digital transformation initiatives. Microsoft and NEC have a history of strong collaboration spanning more than 40 years (since NEC introduced its PC running Microsoft software in 1979).

The partnership will have NEC adopt Microsoft Azure as its preferred cloud platform to deliver enhanced capabilities to drive sustained digitalization, help customers transform their business models, and build Digital Workplaces for the post-pandemic “new normal.”

To accelerate NEC’s Digital Workplace innovation and workforce transformation, the companies will work together to migrate NEC’s on-premises IT environment to Azure and deploy Azure Virtual Desktop and other Azure services among the NEC Group’s 110,000 employees worldwide. This modernization builds on NEC’s existing Microsoft 365 platform and will enable a highly sustainable environment that is more secure and robust, accelerating cloud migration for NEC and its customers throughout the commercial and public sector in Japan and around the world.

The companies will work together to help improve digital services for public sector and enterprise customers through workplace and workforce transformation. Greater speed and lower-latency data connections will provide high-performance network experiences to create more efficient workplaces and empower employees to realize more personalized work styles for public sector as well as private sector customers.

Leveraging the assets of both companies, including Microsoft’s Intelligent Edge solutions and NEC’s private 5G networking technologies (?), the companies will work together to help customers across industries transform. In retail, for example, the two companies will work together to analyze customer transaction data in real time using AI to better understand buying patterns, improve operational efficiency and identify new market opportunities.

The combination of Azure and both companies’ AI and IoT technologies and expertise will enhance NEC’s customer experience through advanced solutions and enable more secure maintenance and operation of stores. In addition, NEC and Microsoft plan to explore network innovation initiatives built on Microsoft Azure for enterprise domains and specific industries.

Through the partnership, the companies will work together to double the number of digital-focused engineers within the NEC Group who are specialized in Microsoft technologies. This investment in technical capabilities and the expertise of NEC’s employees will help ensure customers’ digital transformation success, benefiting the market and society.

“As we’ve seen over the past year, digital adoption curves are accelerating across every industry and business function,” said Satya Nadella, chairman and CEO, Microsoft. “Our strategic partnership with NEC brings together the power of Azure and Microsoft 365 with NEC’s services and infrastructure expertise to help public and private sector customers build resilience and transform during this era of rapid change.”

“NEC is pleased to enter into this strategic collaboration with Microsoft Corp.,” said Takayuki Morita, president and CEO of NEC Corporation. “With Microsoft’s trusted cloud and services, the experience that NEC has cultivated in its own systems, and both companies’ AI and IoT technologies, we will enable companies globally to use digital services that are safer and more secure than ever before as they progress with digital initiatives.”

“The need for sustainable transformation to ensure business resiliency and growth has never been more important in the world and especially Japan,” said Hitoshi Yoshida, president & CEO, Microsoft Japan. “Our partnership will help accelerate the industry’s cloud-based digital transformation and utilization of data migration and help Japan’s continued success globally, leading to greater economic and societal prosperity.”

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More on NEC:

NEC recently announced it had demonstrated its 4G and 5G Mobile Core Solution on Amazon Web Services for commercial offerings from “multiple” service providers in Japan. “Our core and its associated orchestration products allow us to provide sophisticated capabilities, such as end-to-end slicing, ultra-low latency and multi-cloud deployment options, which are key to realize the promises of 5G monetization,” claimed Patrick Lopez, NEC’s global VP of product management for 5G products.

Of course, NEC has partnered with Rakuten Mobile to develop the Rakuten Communications Platform (RCP) and related 5G SA Cloud Native Core network software.

References:

https://news.microsoft.com/2021/07/12/microsoft-and-nec-expand-strategic-partnership-to-boost-business-resiliency-and-growth/

https://www.lightreading.com/5g/nec-sends-5g-to-cloud-with-microsoft/d/d-id/770831?

Rakuten Mobile, Inc. and NEC to jointly develop the containerized standalone (SA) 5G core network

Rakuten Communications Platform (RCP) defacto standard for 5G core and OpenRAN?

OpenSignal reports shed light on 5G mmWave and 5G User Experiences

According to  a new report, “Quantifying the mmWave 5G experience in the US — July update by OpenSignal, the average U.S. mobile user connects to a 5G millimeter wave (mmWave)  network less than 1% of the time. The difference between AT&T, Verizon, and T-Mobile’s 5G mmWave network access is miniscule with Verizon customers at 0.7% of the time, AT&T’s at 0.4% of the time, and T-Mobile’s at 0.2% of the time.  OpenSignal’s latest mmWave 5G report features data collected from March to June, 2021.  The network monitoring company obtained its data from software installed in more than 100 million smartphones around the world, which send back anonymized usage data to OpenSignal on a daily basis.

Regarding 5G mmWave network speeds, T-Mobile users experienced the fastest average 5G mmWave network download speeds of 618.4 Mbps with Verizon, which was nearly twice as fast as users’ average experience on T-Mobile, and more than two and a half times faster than what our users experienced on AT&T.  Verizon users continue to experience the fastest average 5G mmWave download speed which Opensignal has seen to date.  Users’ average download speed on AT&T’s 5G mmWave  was 245 Mbps, while we recorded an average 5G mmWave  download speed of 312 Mbps on T-Mobile. AT&T and T-Mobile’s scores were statistically tied.

T-Mobile users experienced the fastest average 5G upload speeds on 5G  mmWave networks with a score of 39.9 Mbps, which was 29.7-33.1% faster than what was observed on both AT&T and Verizon. Average upload speeds for AT&T and Verizon’s mmWave 5G services were 30 Mbps and 30.8 Mbps, respectively.

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5G technology promised to support high-speed mobile operations in the mmWave spectrum bands, thus allowing operators to raise their peak network speeds from around 100Mbit/s to above 1Gbit/s.  However, distance is extremely limited and line of sight connectivity is required.  Transmissions in mmWave spectrum can’t travel more than a few thousand feet, and usually cannot penetrate through glass or trees.  So many small cells close to the 5G mmWave user are needed which are often difficult to get permits for and install on public property (like street lights, lamps, rooftops, etc).

In contrast, wireless transmissions in traditional, lowband cellular spectrum bands, such as 800MHz or 1900MHz, can often travel miles and reach deep inside homes or office buildings.

Furthermore, ITU-R WP 5D has not agreed on the revisions of ITU-R M.1036 Frequency Arrangements for terrestrial IMT which MUST include (but do not now) the mmWave bands approved at WRC 19.  Therefore, there is no standard for exactly what 5G mmWave frequencies should be used along with their duplexing and other arrangements.

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In a companion report on 5G User Experiences, OpenSignal found that T-Mobile doubled its lead in the 5G Download Speed category.  T-Mobile users saw average 5G Download Speeds of 87.5 Mbps, ahead of our users on AT&T and Verizon which both scored 52.3 Mbps. Our T-Mobile users’ average 5G Download Speed has increased by an impressive 16.3 Mbps compared to our April 5G report, and 29.4 Mbps compared to our January 5G report. By comparison, our users on AT&T saw their average 5G Download Speeds reduce by 2.7 Mbps since our last report, while our users on Verizon experienced a 4.5 Mbps improvement.

T-Mobile won the 5G Upload Speed award with a score of 15.1 Mbps, which is statistically unchanged compared to our previous report. Verizon places second showing an improvement of 1.2 Mbps and reaching 14.2 Mbps, while AT&T follows behind with 8.8 Mbps — a 1.2 Mbps decline since our April 2021 5G report.

SOURCE:  OpenSignal

AT&T and Verizon shared the award for 5G Video Experience, scoring 61.3 points and 61.2 points, respectively. AT&T claimed the award in April 2021, while Verizon was the sole winner in January 2021. T-Mobile has placed third across all 5G Video Experience awards, this time scoring 54.8 points. Video Experience quantifies the quality of video streamed to mobile devices by measuring real-world video streams over carriers’ networks.

Finally, Verizon won the 5G Voice App Experience award scoring 83.3 points and moving past AT&T, which was the previous winner. Verizon has improved its score by 0.7 points since our previous report, while we have observed 0.6-0.8 points declines on both AT&T and T-Mobile. All three mobile operators place in the Good category (80-87 points). Voice App Experience measures the quality of experience real-time communications using over-the-top (OTT) voice apps. Examples of these types of apps include WhatsApp, Skype and Facebook Messenger.

 

References:

https://www.opensignal.com/2021/07/13/quantifying-the-mmwave-5g-experience-in-the-us-july-update

https://www.opensignal.com/reports/2021/07/usa/mobile-network-experience-5g

https://www.lightreading.com/5g/the-age-of-mmwave-5g-sputters-to-dusty-death/a/d-id/770838?

IDTechEx: 45 Million of 5G Small Cells to be Installed by 2031; Small Cell Forum 2021 Market Forecast

IDTechEx has recently released “5G Small Cells 2021-2031: Technologies, Markets, Forecast,” a market research and business intelligence report exploring the key technical and industry factors that are shaping the fast-growing small cell market.  The report forecasts that the overall number of 5G small cells will reach 45 million by 2031.

One of the challenges of mmWave (24–48 GHz) based 5G is signal attenuation (Another is the requirement for line of sight communications). That results in the signal propagation distance being much shorter compared to use of other frequencies in cellular networks such as 3G and 4G. Small cells are proposed to address this big challenge.

Deploying many small cells will also improve aggregate 5G bandwidth in dense urban area through frequency re-use.  Creating an ultra-dense cellular network by deploying more small cells plays a key role in 5G as it allows it to complement the macro cell network and therefore boosts data capacity.

Small cells can be categorized into three types: femtocells, picocells, and microcells, depending on their output power. Because of their smaller size compared to macro base stations, the material choices and the overall technology trend will be different from their macro infrastructure counterparts.

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As of mid-2021, the majority of the 5G commercial rollouts are still focused on enhanced mobile broadband. 5G network operators have mostly installed 5G macro base stations to provide networks with high capacity for consumers using mobile devices. However, the new use cases such as industrial IoT 4.0, cellular vehicle to everything (C-V2X), new entertainment experiences, and smart cities, are where the real innovations are occurring and the huge market potential lies. 5G small cells will play an essential role in supporting those industries to become fully digitalized and the potential realized.

IDTechEx’s analysis considers how the following variables evolve during the forecast period: the development and adoption rate of sub-6 GHz and mmWave in the world’s five regions, the growth of the Internet of Things (IoT) for broadband and critical applications, 5G rollout potentials for enterprises, urban, and rural & remote purposes, and the utilization rate of different types of small cells for each scenario.

In this report, IDTechEx provides a comprehensive analysis on 5G small cells (both sub-6 GHz and mmWave) including technology benchmarking and supply chain landscape:
  • 5G small cells vendor landscape analysis
  • Supply chain and technology analysis on Radiofrequency (RF) components such as power amplifier and filters for 5G small cells
  • Choices of semiconductors for 5G small cells
  • Antenna-integrated package (AiP) solutions
  • EMI shielding
  • Thermal management for 5G small cells

The report offers insights into the global 5G small cells market for:

  • Companies that supply materials and components for 5G small cells
  • Companies that develop 5G small cells
  • Companies that invest in the 5G infrastructures
  • Companies that plan to step into 5G small cell business
  • Companies that develop digital solutions for industries

For more information on this report, please visit www.IDTechEx.com/5GSmallCells, or for the full portfolio of 5G research available from IDTechEx please visit www.IDTechEx.com/Research/5G.

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Separately, the Small Cell Forum’s market forecast is claimed to be the industry’s most comprehensive analysis of small cell deployments globally from now until 2026. The most important input to the forecast is a survey of the deployers of small cells, including 84 MNOs (Mobile Network Operators) and 33 other service providers such as private network operators and neutral hosts.

Key findings from the 2021 report include:

  • There is a rising number of industrial applications that require full 5G capabilities such as high availability, and these will accelerate adoption of 5G small cells, with a CAGR of 77% in 2019-2026.
  • Access to a wider variety of spectrum, with more flexible licensing, will be the most important enabler of enterprise small cell roll-out in the early 2020s. Deployments in shared spectrum will overtake those in licensed bands in 2025.
  • As small cells need to address increasingly diverse requirements from different industries and use cases, flexible, cloud-based architectures will become essential. Two-thirds of deployers expect to adopt small cell vRAN by 2025.
  • One driver of vRAN expansion will be open small cell architectures. These will account for 77% of new deployments in 2026. There will be strong support for SCF’s Split 6 in the enterprise and industrial environments, where it will adopted by 58% of deployers by 2024.
  • The trend for rising diversity of small cell deployers and business models will intensify as enterprise demand grows, and by 2026, over three-quarters of enterprise small cells will be deployed and operated by private network operators or neutral hosts.

References:

https://www.idtechex.com/en/research-report/5g-small-cells-2021-2031-technologies-markets-forecast/825

https://www.idtechex.com/en/research-article/45-million-of-5g-small-cells-will-be-installed-by-2031/24237

https://www.smallcellforum.org/

https://www.smallcellforum.org/scf-market-forecast/

Lightpath to deploy 800Gb/sec links using Ciena’s WaveLogic 5 Extreme technology

Fiber-optic network services provider Lightpath has rolled out 800-Gbps capabilities via implementation of Ciena’s WaveLogic 5 Extreme technology. The company also will deploy Ciena’s Waveserver Ai platform, which will pair with a flexible-grid optical transport network based on Ciena’s 6500 RLS platforms.

The Lightpath Network consists of over 18,000 route miles of fiber providing connectivity to over 12,000 service locations.  Lightpath provides a variety of connectivity and business services to customers in the metro New York area, including financial services firms (e.g. “Lightpath intros 100-Gbps optical transport service” and “Lightpath raises New York metro fiber-optic network footprint”).  Using Ciena’s coherent optical solution, Lightpath’s network becomes more adaptive, allowing it to respond quickly to ever-changing bandwidth demands while maximizing operational efficiencies, providing customers with more reliable, high-speed services.

The enhanced optical transport technology will increase fiber network flexibility and efficiency as well as support Physical Layer encryption for data security. Cable MSO Altice USA owns a controlling interest in the company (see “Altice USA to sell almost 50% of Lightpath fiber enterprise business to Morgan Stanley Infrastructure Partners”).

“In order for our customers to execute on their own digital innovations, we need to provide them with fast and reliable connectivity. With Ciena’s solutions, our customers in the New York and Boston metro areas will now experience next-level digital services with high bandwidth and minimal latency,” commented Phil Olivero, CTO at Lightpath.

“As users consume more digital content, it is crucial for service providers to ensure their network can adapt to these surging and often unpredictable demands. With Ciena’s technology, Lightpath is adding scalability to meet bandwidth demands and also gaining real-time visibility into the performance of its network,” added Kevin Sheehan, CTO, Americas, for Ciena.

WaveLogic 5 Extreme is now available in three different product implementations to meet network architecture preferences: 6500 Packet-Optical PlatformWaveserver 5 compact interconnect platform, and the WaveLogic 5 Extreme 800G transceiver module

The WaveLogic 5 Extreme chip is 12mm x 16mm CMOS device. Here are some of its remarkable features:

  • It is the industry’s first commercial 7nm CMOS device for optical networks.
  • Based on 7nm FinFET technology, it includes 3km of wiring and contains 800 Trillion operations per second, which is about as much horsepower as 400,000 laptops!
  • Some of the capabilities that are packed into the ASIC include nonlinear probabilistic constellation shaping, throughput-optimized forward error correction, frequency division multiplexing, and encryption.

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About Ciena
Ciena is a networking systems, services and software company. We provide solutions that help our customers create the Adaptive Network™ n response to the constantly changing demands of their end-users. By delivering best-in-class networking technology through high-touch consultative relationships, we build the world’s most agile networks with automation, openness and scale. For updates on Ciena, follow us on Twitter @CienaLinkedIn, the Ciena Insights blog, or visit www.ciena.com.

About Lightpath
Lightpath is revolutionizing how customers connect to their digital destinations by combining our next-generation network with our next-generation customer service. Lightpath’s advanced fiber-optic network offers a comprehensive portfolio of custom-engineered connectivity solutions with unparalleled performance, reliability, and security. Our consultative customer service means we work with you to design, deliver, and support the solution for your unique needs, faster and more easily than ever before. For over 30 years, thousands of enterprises, governments, and educators have trusted Lightpath to power their organization’s innovation. Altice USA (NYSE: ATUS) owns a 50.01% controlling interest in Lightpath and Morgan Stanley Infrastructure Partners (MSIP) owns 49.99% of the Company.

www.lightpathfiber.com

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References:

https://www.ciena.com/about/newsroom/press-releases/lightpath-upgrades-to-next-generation-network-using-cienas-wavelogic-5-extreme-800g-technology.html

https://www.lightwaveonline.com/network-design/high-speed-networks/article/14206591/lightpath-moves-to-800g-services-with-ciena

https://www.ciena.com/insights/articles/800G-is-here-pushing-the-boundaries-of-what-your-network-can-do.html

 

SDx Central: 5G Disappoints at MWC 2021

The world’s first mobile 5G networks were deployed two years ago and everyone in the industry is still searching, waiting for 5G to deliver on its promise.  Stéphane Téral, chief analyst at LightCounting, said during a panel discussion at MWC Barcelona 2021:

Most of the 141 live 5G networks at the end of April 2021 were operating in 5g non-standalone (NSA) mode. “Don’t believe it means no strings attached. Actually it’s the contrary, those networks are 4G on steroids. They are anchored into LTE Advanced,” he said.

“We only have eight standalone (SA) networks in the world,” Téral added. “Those eight 5G networks are working purely with a 5G core, not attached anymore to a 4G core, so this is the 5G which we have to shoot for.”

Criticism of the current status of 5G hit another level when he and a group of analysts were pressed to explain why GSMA held multiple sessions on 6G during last week’s event. “We’re talking about 6G because we’re going to call 6G all the stuff we overpromised with 5G that we can deliver,” Téral said.

Peter Jarich, head of GSMA Intelligence, noted that marketing, international competitive interests, and the general buzzworthy-ness of 6G are all at play. Improvements in radio access network (RAN) energy efficiency, sustainability, security, and the use of new spectrum require long-term planning, he added.

“We need to start now to make sure that we can iron those things out so we don’t end up with Chinese 6G, and American 6G, and European 6G,” Jarich said. “We need to start early because as much as everyone is talking about this will be a 2030 phenomenon, that’s not true. We know there was 5G before 2020.”

Roland Montagne, principal analyst at IDATE DigiWorld, said it’s too early to discuss 6G in detail because 5G remains largely unfulfilled. 5G rollouts, spectrum auctions, and 3GPP standardization efforts are all delayed in the wake of the global pandemic, he said.

While almost every layer of 5G needs further development, many potential leaps in wireless technology remain unaddressed and are unlikely to impact 5G at scale, Téral explained.

5G Very Unimpressive So Far

“We need to deliver and remember 3G under delivered, 4G over delivered; 5G very unimpressed so far. Let’s not forget that 5G is the first G that we cannot identify with a new waveform. We’re still in the OFDM (orthogonal frequency-division multiplexing) domain,” he said, pinning the blame for that on geopolitics.

Massive multiple-input, multiple-output (MIMO) and polar codes are “the only new things we have in 5G,” he said. New waveforms “would have been fantastic candidates to actually really boost spectral efficiencies and cut the latency to one millisecond. So we still have a long way to go.”

Meanwhile, 5G network operators remain on the hunt for new revenue streams from 5G and haven’t yet cracked the code, the analysts noted.

5G Enterprise Opportunity Remains Unfulfilled

“We all know that one of the hopes for 5G was that it would help the telco industry move into the enterprise more,” Jarich said, adding that 83% of operator CEOs surveyed by GSMA Intelligence said they expected enterprises to be the revenue upside from 5G.

Camille Mendler, chief analyst at Omdia, said the network operator business model has changed from connectivity to a quality of experience and digital enablement for businesses. “In point of fact, I think that service providers have a lot of work to do,” she said. “Even when talking about a small enterprise or a very large enterprise, these are sophisticated digital buyers and telcos have needed to improve their engagement.”

The COVID-19 crisis “has actually made them think more concretely about investments that they need to make to deliver digital experiences from prospecting to buying to managing services, and there’s still frankly a lot of work to be done,” Mendler added.

Mobile edge computing remains a critical part of mobile network operator’s enterprise strategy, but there’s scant agreement about what the edge is, where it resides, and why enterprises need it.

‘Edge Is Everything and Anything to Everyone’

Edge is everything and anything to everyone, so everyone has an edge story. It’s everywhere from in the public cloud, to in the device, to in the enterprise where it kind of just looks like a server. Depending on who you are, you can kind of call it everything,” Jarich said.

Téral, underlining his point about other unused technologies that could boost spectral efficiency and lower latencies, said “everybody’s talking about the edge, but no one has a clear definition about edge so that’s pretty shaky. That’s a problem.”

Enterprises want access to mobile edge computing insofar as the requirements they’re seeking in network performance and latency, Mendler explained. “They know what they want in terms of performance. They want five milliseconds, they want less. We need to adjust to a world of near-zero latency and that’s what’s going to drive value, and the dollars are there,” she said.

“There’s a lot of opportunity in enterprise, but I think many people misunderstand where the opportunity is. We’re not going to recoup investments on 5G if we’re thinking just about ports, or we’re just thinking about airlines, or we’re just thinking about transportation,” Mendler continued. “99% of the world’s businesses are small businesses, and until we solve the equation of how to sell 5G services to those small businesses, I think we need to be concerned about return on investment, profits, and growth.”

Security Challenges Threaten Enterprise Push

Operators have also thus far failed to address enterprise security requirements, threatening the scope of the 5G opportunity, she explained. Security was a rare topic of discussion throughout the event.

“If service providers want to do more for enterprises, they need to reduce risk, and one way to reduce risk is to provide a single view of the truth. And the reality is, amongst enterprises that buy multiple services from telcos, eight out of 10 do not have a single view of the truth,” Mendler said. “I know this sounds like a dumb issue, but it’s critical for security and risk management. If you’re running from one portal to another portal to manage different telco services, and telcos are trying to sell more digital services to enterprises, you’re complicating and adding more risk. So that is a piece of housekeeping that must be addressed right now.”

Mendler also highlighted yet another 5G promise that has to ripen. Looking ahead to GSMA’s next annual bash that kicks off Feb. 28, 2022 in Barcelona, Mendler said she wants to see real examples of network slicing: slices of a 5G network that an operator is selling to an enterprise.

https://www.sdxcentral.com/articles/news/analysts-knock-5g-effect-at-mwc-barcelona/2021/07/

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Vodafone and Mavenir create indoor OpenRAN solution for business customers

Vodafone and Mavenir have developed small cell OpenRAN technology for indoor network coverage.  The solution is designed for businesses with medium to large office spaces and uses OpenRAN to support interoperability and (supposedly) to prevent vendor lock-in.  The new indoor OpenRAN solution provides 4G LTE coverage “initially.”

The design of the indoor small cell solution is based on the OpenRAN philosophy of interoperability (yet to be proven). In this case, the software will be provided by Mavenir (Open vRAN), while Sercomm will provide the radio hardware. The design and flexibility of the small cell solution means it will be interoperable with other OpenRAN compliant vendors.

A powerful, indoor small cell solution can offer several advantages to business customers, according to Vodafone. The simple plug and play installation means coverage can be instantly deployed, enabling seamless connectivity for every device in the office. The interoperability (???) of the OpenRAN ecosystem paves the way for long-term flexibility to work with a wider array of vendors for elements such as radio units, baseband hardware, and gateways.

Editor’s Note:  OpenRAN deployments have yet to demonstrate neutral vendor interoperability, technological advantages over purpose built network equipment, and/or cost reductions (OPEX and/or CAPEX).  Light Reading has said OpenRAN substitutes one form of vendor lock-in for another (partnerships amongst OpenRAN vendors).

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Andrea Dona, Chief Network Officer at Vodafone UK, said:

“So far, OpenRAN deployment has focused on outdoor connectivity, but there is significant potential for this technology in the office environment.

A simple plug-and-play product, which includes all the attractive benefits of the OpenRAN philosophy, is one that can build on our strength of providing indoor coverage through both our macro network and our bespoke solutions.”

The convenience offered by plug-and-play enables the small cell equipment to be placed virtually anywhere to ensure coverage across the entire office.

Mavenir’s Open vRAN software is being used for the solution while Sercomm is providing the radio hardware.

Virtyt Koshi, SVP at Mavenir EMEA, commented:

“Mavenir is delighted to partner with Vodafone in Open RAN and to work in the UK on their radio network transformation initiative, proving the extreme flexibility of Open vRAN. 

We are particularly proud in working in the field within the Vodafone commercial network and in the Newbury Open RAN Test and Verification lab, supporting the Vodafone effort to boost the ecosystem.”

The development of an indoor small cell solution is the next stage of a long-standing relationship between Vodafone and Mavenir.   In August 2020, Vodafone deployed the first OpenRAN site to carry live traffic in the UK. The sites, including the Royal Welsh Showground in Powys, feature Mavenir software and Sunwave radio units. Vodafone and Mavenir will continue this partnership to deploy more OpenRAN sites in the future.

References:

Vodafone creating indoor OpenRAN solution for business customers

 

GAO: U.S. Broadband Benchmark Speeds Too Slow; FCC Should Analyze Small Business Speed Needs

In a report released Thursday, the U.S. Government Accountability Office (GAO) said that the FCC’s benchmark for minimum broadband internet speeds (set six years ago at “always on” access of 25 Mbps downstream and 3 Mbps upstream) is no longer fast enough. That’s  especially the case for small business owners. After conducting a study on the matter, the GAO recommends the FCC analyze small business speed requirements at this time and reconsider its current definition.

“FCC officials said they are not aware of any small business requirements that have been taken into consideration in determining the minimum speed benchmark,” the GAO says. “Analyzing small business speed requirements could help inform FCC’s determination of the benchmark speed for broadband.”

The figure below illustrates the various kinds of business broadband use and the associated relative speed requirements.

Illustrative Examples of Different Kinds of U.S. Business Broadband Use:

Illustrative Examples of Different Kinds of Business Broadband Use

Sources vary in terms of the specific speeds they recommend for small businesses. For example, in 2017, BroadbandUSA—a National Telecommunications and Information Administration program—published a fact sheet stating that small businesses need a minimum of 50 Mbps speeds in order to conduct tasks such as managing inventory, operating point-of-sale terminals, and coordinating shipping. A 2019 USDA report on rural broadband and agriculture stated that, as technology advances and volumes of data needed to manage agriculture production grow, speeds in excess of 25/3 Mbps with more equal download and upload speeds will likely be necessary.

Reports from small businesses show that many want a download speed of at least 100 Mbps to run their operations more effectively. According to the FCC’s data, about 67 percent of rural Americans have access to 100 Mbps down/10 Mbps up speeds, compared to about 83 percent with access to the agency’s current minimum benchmark.

To fulfill a statutory requirement to determine annually whether advanced telecommunications capability is being deployed on a reasonable and timely basis to all Americans, FCC sets a minimum broadband speed benchmark.

In its 2021 Broadband Deployment Report, FCC stated that the current benchmark, last set in 2015, continues to meet that requirement. However, FCC officials said they are not aware of any small business requirements that have been taken into consideration in determining the minimum speed benchmark. Analyzing small business speed requirements could help inform FCC’s determination of the benchmark speed for broadband.

Recommendations:

GAO is making one recommendation to FCC to solicit stakeholder input and analyze small business broadband speed needs and incorporate the results of this analysis into the benchmark for broadband. FCC agreed with this recommendation.

References:

https://www.gao.gov/products/gao-21-494

https://www.gao.gov/assets/gao-21-494-highlights.pdf

https://gizmodo.com/the-fccs-definition-of-broadband-internet-is-too-slow-1847257425

 

 

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